CN210552523U - Laminating machine substrate pressing and spreading composite device - Google Patents

Abstract

The utility model relates to a laminating machine substrate pressing and spreading composite device, which comprises a first composite substrate (101), a second composite substrate (102), a composite forming mechanism (3) and a flattening mechanism (5); the flattening mechanism (5) is arranged in front of the composite forming mechanism (3); the device is compact in structure and reasonable in design, the first composite base material (101) is flattened and wrinkle-removed by the flattening mechanism (5) and then is subjected to laminating composite forming with the second composite base material (102) at the composite forming mechanism (3), pulleys are mounted at the bottom of the laminating extrusion device (3.4), the laminating extrusion device (3.4) is arranged on a slide rail in a sliding mode through the pulleys, a corona machine is arranged between the flattening mechanism (5) and the composite forming mechanism (3), and the surface of the base material is subjected to discharge treatment through the corona machine.

Description

Laminating machine substrate pressing and spreading composite device

Technical Field

The utility model relates to a drench membrane machine substrate and press exhibition set composite belongs to and drenches membrane equipment technology field.

Background

The film laminating machine is widely used in modern industrial production and is used for laminating base materials such as paper, cloth and the like, and when the existing film laminating machine is used for laminating films, the base materials such as cloth and the like have certain toughness, so that bending wrinkles are inevitable to appear in the unreeling process and the finished products cannot be completely flattened, and therefore certain influence is caused on the finished products, and the yield is reduced; meanwhile, the film laminating extruder cannot move, the distance between the laminating and laminating composite compression rollers cannot be adjusted, and the thickness of the laminated material is uneven when two substrates are laminated and laminated, so that the quality of a finished product is also affected.

Disclosure of Invention

An object of the utility model is to overcome the aforesaid not enough, provide a simple structure, reasonable in design, can effectively open up the flat substrate, drench the even membrane machine substrate of drenching of membrane thickness and press exhibition set composite.

The purpose of the utility model is realized like this:

a laminating machine substrate pressing and spreading composite device comprises a first composite substrate, a second composite substrate, a composite forming mechanism and a flattening mechanism, wherein the flattening mechanism is arranged in front of the composite forming mechanism; the flattening mechanism comprises a mounting rack, lower fixed plates are fixedly mounted on two sides of the top surface of the mounting rack respectively, and an upper movable plate is arranged above the fixed plates in a sliding manner; a guide rod is vertically arranged on the outer side surface of the fixing plate, and the lower part of the guide rod is fixedly connected to the fixing plate; the outer side surface of the upper movable plate is vertically provided with a guide sleeve, the guide sleeve is positioned right above the guide rod, a guide hole of the guide sleeve and the guide rod are positioned on the same straight line, and the guide rod is connected in the guide sleeve in a penetrating manner; the bottom of the outer side surface of the lower fixing plate is vertically provided with a cylinder, and a telescopic rod of the cylinder is arranged upwards; the upper part of the outer side surface of the upper movable plate is fixedly provided with an L-shaped connecting plate, the L-shaped connecting plate is positioned right above the air cylinder and is positioned on the same straight line with the air cylinder, and the front end of a telescopic rod of the air cylinder is fixedly connected with the bottom of the L-shaped connecting plate; two adjacent upper flattening rollers are arranged between the two upper movable plates, and a lower flattening roller is arranged between the two lower fixed plates;

the composite forming mechanism comprises a third mounting rack, a calendering device, a second unreeling mechanism and a film laminating extrusion device; the rolling device is arranged on the third mounting frame, the second unwinding mechanism is arranged behind the rolling device, and the film laminating extrusion device is positioned above the rolling device;

the calendering device is sequentially provided with a cooling fine adjustment roller, a cooling silica gel roller and an unreeling driving roller from right to left; the third mounting frame is provided with a first linear guide rail, and a supporting seat is connected to the first linear guide rail in a sliding manner through a bottom sliding block; the supporting seat is provided with a silica gel roller seat, and the cooling silica gel roller is rotationally connected to the silica gel roller seat; a second linear guide rail is arranged on the supporting seat and is adjacent to the silica gel roller seat; a fine tuning roller seat is connected to the second linear guide rail in a sliding manner through a bottom sliding block, and the cooling fine tuning roller is rotationally connected to the fine tuning roller seat; a first air cylinder and a second air cylinder are fixedly mounted on the third mounting frame, and a telescopic rod of the first air cylinder is hinged with one side of the supporting seat; the telescopic rod of the second cylinder is hinged with one side of the fine adjustment roller seat;

the second unwinding mechanism comprises a fourth mounting frame, a bearing block is fixedly mounted on the fourth mounting frame, a rotating shaft is rotatably connected onto the bearing block, the rotating shaft is driven by a motor, and a driving shaft of the motor is connected with the rotating shaft through a speed reducer; the two ends of the rotating shaft are respectively provided with a cross-shaped mounting plate, and the two cross-shaped mounting plates are symmetrically arranged; unwinding shafts are symmetrically arranged on two plate ends of the cross-shaped mounting plate on the same straight line, and tensioning shafts are symmetrically arranged on two plate ends on the same straight line on adjacent sides; the unwinding shaft and the tensioning shaft are arranged at intervals;

the laminating extrusion device is arranged above the cooling silica gel roller and the unreeling transmission roller and is positioned in the middle; the laminating extrusion device comprises a transversely arranged screw extruder, the top of the body of the screw extruder is provided with a feed hopper, and a feeding port of the feed hopper is communicated with a material channel of the screw extruder; a die head is arranged at the end of an extrusion port of the screw extruder, and the length of the die head is the same as the width of the base material;

the utility model relates to a laminating machine substrate is pressed and is expanded set composite, the top surface of mounting bracket is provided with arc roller seat, and arc roller seat is located the rear of bottom plate and last fly leaf, the last rotation of arc roller seat is connected with the curved roll, the roll surface of curved roll is provided with the rubber sleeve;

the utility model relates to a laminating machine substrate pressing and spreading composite device, wherein the cooling silica gel roller and the cooling fine adjustment roller are both internally hollow, and two ends of the roller shaft are communicated with an external cooling water pipe;

the utility model relates to a laminating machine substrate is pressed and is expanded set composite, the below of third mounting bracket is provided with the slide rail, laminating extrusion device installs the pulley in the bottom, laminating extrusion device slides through the pulley and sets up on the slide rail;

the utility model relates to a drench membrane machine substrate and press exhibition set composite, be provided with the corona machine between exhibition flat mechanism and the compound forming mechanism, carry out discharge treatment to the substrate surface through the corona machine.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses a through the interval of adjusting bottom plate and last fly leaf to control the interval between last nip roll and the lower nip roll at appropriate distance, make the tensile exhibition of the first compound substrate between the two, the first compound substrate after the exhibition winds through the arc roller, utilizes its roll surface to be crooked, thereby plays the effect of eliminating the fold, whole process is with first compound substrate exhibition flat wrinkle removal, for subsequent drench membrane compound ready, reduced the probability of defective products; the clearance between the cooling silica gel roller and the unreeling driving roller is adjusted through coarse adjustment and fine adjustment, so that the thickness of the laminating layer is uniform, and the composite effect between two base materials is ensured; the device has simple structure and reasonable design, can effectively flatten the composite base material, promotes the laminating composite effect, improves the quality of finished products and reduces the cost.

Drawings

Fig. 1 is the overall structure schematic diagram of the laminating machine substrate pressing and spreading composite device of the present invention.

Fig. 2 is the structural schematic diagram of the composite forming mechanism of the laminating machine substrate pressing and spreading composite device of the present invention.

Fig. 3 is a schematic structural diagram of the calendering apparatus in fig. 2.

Fig. 4 is a structural schematic diagram of the second unwinding mechanism in fig. 2.

Fig. 5 is a schematic structural view of the laminating extrusion device in fig. 2.

Fig. 6 is a side view of a flattening mechanism of the laminating machine substrate pressing and spreading composite device of the present invention.

Fig. 7 is a front view of a flattening mechanism of the laminating machine substrate pressing and spreading composite device of the present invention.

Wherein:

a first composite base material 101, a second composite base material 102, a composite forming mechanism 3 and a flattening mechanism 5;

the third mounting rack 3.1, the calendering device 3.2, the second unreeling mechanism 3.3 and the laminating extrusion device 3.4 are arranged;

the device comprises a first linear guide rail 3.2.1, a supporting seat 3.2.2, a cooling silica gel roller 3.2.3, a second linear guide rail 3.2.4, a cooling fine adjustment roller 3.2.5, a first cylinder 3.2.6, a second cylinder 3.2.7 and an unreeling transmission roller 3.2.8;

a fourth mounting rack 3.3.1, a bearing seat 3.3.2, a rotating shaft 3.3.3, a cross-shaped mounting plate 3.3.4, a unreeling shaft 3.3.5 and a tensioning shaft 3.3.6;

3.4.1 of a screw extruder, 3.4.2 of a feed hopper and 3.4.3 of a die head;

the device comprises a mounting frame 5.1, a lower fixed plate 5.2, an upper movable plate 5.3, a guide rod 5.4, a guide sleeve 5.5, a cylinder 5.6, an L-shaped connecting plate 5.7, an upper flattening roller 5.8, a lower flattening roller 5.9 and an arc-shaped roller 5.10.

Detailed Description

Referring to fig. 1 to 7, the utility model relates to a laminating machine substrate pressing and spreading composite device, which comprises a first composite substrate 101, a second composite substrate 102, a composite forming mechanism 3 and a flattening mechanism 5; the flattening mechanism 5 is arranged in front of the composite forming mechanism 3; the first composite base material 101 is flattened by the flattening mechanism 5 to remove wrinkles and then is subjected to laminating composite forming with the second composite base material 102 at the composite forming mechanism 3;

the flattening mechanism 5 comprises an installation frame 5.1, two sides of the top surface of the installation frame 5.1 are respectively and fixedly provided with a lower fixed plate 5.2, and an upper movable plate 5.3 is arranged above the fixed plate 5.2 in a sliding manner; a guide rod 5.4 is vertically arranged on the outer side surface of the fixed plate 5.2, and the lower part of the guide rod 5.4 is fixedly connected to the fixed plate 5.2 through a clamp; a guide sleeve 5.5 is vertically arranged on the outer side surface of the upper movable plate 5.3, the guide sleeve 5.5 is positioned right above the guide rod 5.4, a guide hole of the guide sleeve and the guide rod 5.4 are positioned on the same straight line, the guide rod 5.4 is connected in the guide sleeve 5.5 in a penetrating manner, and the upper movable plate 5.3 is positioned by matching the guide sleeve 5.5 and the guide rod 5.4 and moves up and down along the guide rod 5.4; a cylinder 5.6 is vertically arranged at the bottom of the outer side surface of the lower fixing plate 5.2, and a telescopic rod of the cylinder 5.6 is arranged upwards; an L-shaped connecting plate 5.7 is fixedly mounted on the upper portion of the outer side face of the upper movable plate 5.3, the L-shaped connecting plate 5.7 is located right above the air cylinder 5.6 and is located on the same straight line with the air cylinder 5.6, the front end of a telescopic rod of the air cylinder 5.6 is fixedly connected with the bottom of the L-shaped connecting plate 5.7, and when the telescopic rod is telescopic, the upper movable plate 5.3 is driven to move up and down along the guide rod 5.4 through the L-shaped connecting plate 5.7; two adjacent upper flattening rollers 5.8 are arranged between the two upper movable plates 5.3, a lower flattening roller 5.9 is arranged between the two lower fixed plates 5.2, the first composite substrate 101 downwards winds through the lower flattening rollers 5.9 through the two upper flattening rollers 5.8, and the distance between the lower fixed plate 5.2 and the upper movable plates 5.3 is adjusted through the air cylinder 5.6, so that the distance between the upper flattening rollers 5.8 and the lower flattening rollers 5.9 is adjusted, and the first composite substrate 101 between the upper flattening rollers and the lower flattening rollers is stretched and flattened to be beneficial to processing and forming of laminating compounding;

the composite forming mechanism 3 comprises a third mounting rack 3.1, a calendering device 3.2, a second unreeling mechanism 3.3 and a laminating extrusion device 3.4; the rolling device 3.2 is arranged on the third mounting rack 3.1, the second unreeling mechanism 3.3 is arranged behind the rolling device 3.2, and the laminating and extruding device 3.4 is positioned above the rolling device 3.2; the second unreeling mechanism 3.3 unreels the composite coiled material and carries out film coating compounding on the base material after the composite coiled material is rolled;

the calendering device 3.2 is sequentially provided with a cooling fine adjustment roller 3.2.5, a cooling silica gel roller 3.2.3 and an unreeling transmission roller 3.2.8 from right to left; the third mounting frame 3.1 is provided with a first linear guide rail 3.2.1, and a supporting seat 3.2.2 is connected to the first linear guide rail 3.2.1 in a sliding manner through a bottom sliding block; a silica gel roller seat is arranged on the supporting seat 3.2.2, and the cooling silica gel roller 3.2.3 is rotationally connected to the silica gel roller seat; a second linear guide rail 3.2.4 is arranged on the supporting seat 3.2.2, and the second linear guide rail 3.2.4 is arranged adjacent to the silica gel roller seat; a vernier roller seat is connected on the second linear guide rail 3.2.4 in a sliding way through a bottom sliding block, and the cooling vernier roller 3.2.5 is rotationally connected on the vernier roller seat; a first air cylinder 3.2.6 and a second air cylinder 3.2.7 are fixedly mounted on the third mounting frame 3.1, an expansion rod of the first air cylinder 3.2.6 is hinged with one side of the supporting seat 3.2.2, the first air cylinder 3.2.6 expands and contracts to push the supporting seat 3.2.2 so as to drive the cooling silica gel roller 3.2.3 to be attached and pressed with the unreeling driving roller 3.2.8, and the gap between the two is adjusted, so that the thickness of the laminating layer is adjusted, and the composite effect among different base materials is ensured; the telescopic rod of the second cylinder 3.2.7 is hinged with one side of the fine tuning roller seat, the telescopic rod of the second cylinder 3.2.7 pushes the fine tuning roller seat to drive the cooling fine tuning roller 3.2.5 to be attached and pressed with the cooling silica gel roller 3.2.3, the gap between the cooling silica gel roller 3.2.3 and the unreeling driving roller 3.2.8 is adjusted in a micro-motion mode, and the thickness of the laminating layer is further controlled;

the second unwinding mechanism 3.3 comprises a fourth mounting frame 3.3.1, a bearing block 3.3.2 is fixedly mounted on the fourth mounting frame 3.3.1, a rotating shaft 3.3.3 is rotatably connected to the bearing block 3.3.2, the rotating shaft 3.3.3 is driven by a motor, and a driving shaft of the motor is connected with the rotating shaft 3.3.3 through a speed reducer; the two ends of the rotating shaft 3.3.3 are respectively provided with a cross-shaped mounting plate 3.3.4, and the two cross-shaped mounting plates 3.3.4 are symmetrically arranged; the two plate ends of the cross-shaped mounting plate 3.3.4 on the same straight line are symmetrically provided with unreeling shafts 3.3.5, and the two plate ends on the same straight line on the adjacent sides are symmetrically provided with tensioning shafts 3.3.6; the unwinding shaft 3.3.5 and the tensioning shaft 3.3.6 are arranged at intervals; the unwinding shaft 3.3.5 unwinds the coiled material of the second composite base material 102 through the unwinding driving roller 3.2.8, and the tensioning shaft 3.3.6 tightly supports the unwound second composite base material 102, so that unwinding is facilitated;

the laminating extrusion device 3.4 is arranged above the cooling silica gel roller 3.2.3 and the unreeling transmission roller 3.2.8 and is positioned at the center; the laminating extrusion device 3.4 comprises a transversely arranged screw extruder 3.4.1, the top of the body of the screw extruder 3.4.1 is provided with a feed hopper 3.4.2, and a feed inlet of the feed hopper 3.4.2 is communicated with a material channel of the screw extruder 3.4.1; a die head 3.4.3 is arranged at the extrusion port end of the screw extruder 3.4.1, the length of the die head 3.4.3 is the same as the width of the base material, and the laminating material is extruded out in a linear mode through a flat die head die port and is attached between the first composite base material and the second composite base material 102 after being pulled up;

preferably, the top surface of the mounting frame 5.1 is provided with an arc-shaped roller seat, the arc-shaped roller seat is positioned behind the lower fixed plate 5.2 and the upper movable plate 5.3, the arc-shaped roller seat is rotatably connected with an arc-shaped roller 5.10, the roller surface of the arc-shaped roller 5.10 is provided with a rubber sleeve, and the roller surface is curved, so that when a substrate passes through a high point of an arc, a contact area can be shortened to a long process, a force from the middle to the edge direction of the material is generated, and the effect of eliminating wrinkles is achieved;

furthermore, the cooling silica gel roller 3.2.3 and the cooling fine adjustment roller 3.2.5 are both hollow inside, two ends of the roller shaft are communicated with an external cooling water pipe, the cooling of the roller is realized through external cooling water circulation, the adverse effect on the composite material caused by overhigh temperature of the roller surface in the film coating process is prevented, and meanwhile, the roller has a protection effect and the service life of the roller is prolonged;

further, a slide rail is arranged below the third mounting frame 3.1, a pulley is arranged at the bottom of the film laminating extrusion device 3.4, the film laminating extrusion device 3.4 is arranged on the slide rail in a sliding mode through the pulley, and slides to a proper position along the slide rail when in use, and moves to a position easy to maintain along the slide rail in maintenance, so that the film laminating extrusion device is flexible and convenient;

further, a corona machine is arranged between the flattening mechanism 5 and the composite forming mechanism 3, and the surface of the flattened and wrinkle-removed base material is subjected to discharge treatment by the corona machine, so that the surface of the base material has stronger adhesive force and is prepared for the subsequent laminating and compounding process;

the working principle of the device is as follows:

after the first composite substrate 101 is unreeled through a front passage, the first composite substrate 101 is guided into the flattening mechanism 5 through a plurality of guide rollers, the distance between the upper flattening roller 5.8 and the lower flattening roller 5.9 is controlled to be a proper distance by adjusting the distance between the lower fixing plate 5.2 and the upper movable plate 5.3, so that the first composite substrate 101 between the upper flattening roller and the lower flattening roller is stretched and flattened, the flattened first composite substrate 101 passes through the arc-shaped roller 5.10 in a winding manner, the roller surface of the first composite substrate is bent, the wrinkle removing effect is achieved, the first composite substrate 101 is flattened in the whole process, preparation is made for subsequent laminating, and the probability of defective products is reduced; then the first composite substrate 101 enters the composite forming mechanism 3 and is guided to the cooling silica gel roller 3.2.3 through a guide roller, at the moment, the second composite substrate 102 is unreeled by the second unreeling mechanism 3.3, the second composite substrate 102 is tightly attached to and compounded with the first composite substrate 101 on the cooling silica gel roller 3.2.3 on the unreeling driving roller 3.2.8, the laminating film extrusion device 3.4 located above linearly extrudes the laminating film material and then coats the laminating film material between the two substrates, and the gap between the cooling silica gel roller 3.2.3 and the unreeling driving roller 3.2.8 is adjusted, so that the thickness of the laminating film is uniform, and the compounding effect between the two substrates is ensured.

In addition: it should be noted that the above-mentioned embodiment is only a preferred embodiment of the present patent, and any modification or improvement made by those skilled in the art based on the above-mentioned conception is within the protection scope of the present patent.

Claims (5)

1. The utility model provides a drench membrane machine substrate and press exhibition set composite, contains first compound substrate (101), compound substrate of second (102), compound forming mechanism (3) and exhibition flat mechanism (5), exhibition flat mechanism (5) set up in the place ahead of compound forming mechanism (3), its characterized in that: the flattening mechanism (5) comprises an installation frame (5.1), lower fixed plates (5.2) are fixedly installed on two sides of the top surface of the installation frame (5.1) respectively, and an upper movable plate (5.3) is arranged above the fixed plates (5.2) in a sliding mode; a guide rod (5.4) is vertically arranged on the outer side surface of the fixed plate (5.2), and the lower part of the guide rod (5.4) is fixedly connected to the fixed plate (5.2); a guide sleeve (5.5) is vertically arranged on the outer side surface of the upper movable plate (5.3), the guide sleeve (5.5) is positioned right above the guide rod (5.4), a guide hole of the guide sleeve and the guide rod (5.4) are positioned on the same straight line, and the guide rod (5.4) is connected in the guide sleeve (5.5) in a penetrating manner; an air cylinder (5.6) is vertically arranged at the bottom of the outer side surface of the lower fixing plate (5.2), and a telescopic rod of the air cylinder (5.6) is arranged upwards; an L-shaped connecting plate (5.7) is fixedly mounted on the upper portion of the outer side face of the upper movable plate (5.3), the L-shaped connecting plate (5.7) is located right above the air cylinder (5.6) and located on the same straight line with the air cylinder (5.6), and the front end of a telescopic rod of the air cylinder (5.6) is fixedly connected with the bottom of the L-shaped connecting plate (5.7); two adjacent upper flattening rollers (5.8) are arranged between the two upper movable plates (5.3), and a lower flattening roller (5.9) is arranged between the two lower fixed plates (5.2);

the composite forming mechanism (3) comprises a third mounting rack (3.1), a calendering device (3.2), a second unreeling mechanism (3.3) and a film laminating extrusion device (3.4); the rolling device (3.2) is arranged on the third mounting rack (3.1), the second unreeling mechanism (3.3) is arranged behind the rolling device (3.2), and the laminating and extruding device (3.4) is positioned above the rolling device (3.2);

the calendering device (3.2) is sequentially provided with a cooling fine adjustment roller (3.2.5), a cooling silica gel roller (3.2.3) and an unreeling transmission roller (3.2.8) from right to left; a first linear guide rail (3.2.1) is arranged on the third mounting rack (3.1), and a supporting seat (3.2.2) is connected to the first linear guide rail (3.2.1) in a sliding manner through a bottom sliding block; a silica gel roller seat is arranged on the supporting seat (3.2.2), and the cooling silica gel roller (3.2.3) is rotationally connected to the silica gel roller seat; a second linear guide rail (3.2.4) is arranged on the supporting seat (3.2.2), and the second linear guide rail (3.2.4) is arranged adjacent to the silica gel roller seat; a fine tuning roller seat is connected on the second linear guide rail (3.2.4) in a sliding way through a bottom sliding block, and a cooling fine tuning roller (3.2.5) is rotationally connected on the fine tuning roller seat; a first cylinder (3.2.6) and a second cylinder (3.2.7) are fixedly mounted on the third mounting frame (3.1), and a telescopic rod of the first cylinder (3.2.6) is hinged with one side of the supporting seat (3.2.2); the telescopic rod of the second cylinder (3.2.7) is hinged with one side of the fine adjustment roller seat;

the second unwinding mechanism (3.3) comprises a fourth mounting frame (3.3.1), a bearing block (3.3.2) is fixedly mounted on the fourth mounting frame (3.3.1), a rotating shaft (3.3.3) is rotatably connected onto the bearing block (3.3.2), the rotating shaft (3.3.3) is driven by a motor, and a driving shaft of the motor is connected with the rotating shaft (3.3.3) through a speed reducer; the two ends of the rotating shaft (3.3.3) are respectively provided with a cross-shaped mounting plate (3.3.4), and the two cross-shaped mounting plates (3.3.4) are symmetrically arranged; two plate ends of the cross-shaped mounting plate (3.3.4) positioned on the same straight line are symmetrically provided with unreeling shafts (3.3.5), and two plate ends on the same straight line of adjacent sides are symmetrically provided with tensioning shafts (3.3.6); the unreeling shaft (3.3.5) and the tensioning shaft (3.3.6) are arranged at intervals;

the laminating extrusion device (3.4) is arranged above the cooling silica gel roller (3.2.3) and the unreeling transmission roller (3.2.8) and is positioned at the center; the laminating extrusion device (3.4) comprises a transversely arranged screw extruder (3.4.1), the top of the body of the screw extruder (3.4.1) is provided with a feed hopper (3.4.2), and a feed inlet of the feed hopper (3.4.2) is communicated with a material channel of the screw extruder (3.4.1); the extrusion port end of the screw extruder (3.4.1) is provided with a die head (3.4.3), and the length of the die head (3.4.3) is the same as the width of the base material.

2. The laminating machine substrate pressing and spreading composite device according to claim 1, characterized in that: the top surface of mounting bracket (5.1) is provided with arc roller seat, and arc roller seat is located the rear of bottom plate (5.2) and last fly leaf (5.3), it is connected with arc roller (5.10) to rotate on the arc roller seat, the roll surface of arc roller (5.10) is provided with the rubber sleeve.

3. The laminating machine substrate pressing and spreading composite device according to claim 1, characterized in that: the cooling silica gel roller (3.2.3) and the cooling fine adjustment roller (3.2.5) are both hollow inside, and two ends of the roller shaft are communicated with an external cooling water pipe.

4. The laminating machine substrate pressing and spreading composite device according to claim 1, characterized in that: the lower part of the third mounting rack (3.1) is provided with a slide rail, the bottom of the film laminating extrusion device (3.4) is provided with a pulley, and the film laminating extrusion device (3.4) is arranged on the slide rail in a sliding manner through the pulley.

5. The laminating machine substrate pressing and spreading composite device according to claim 1, characterized in that: a corona machine is arranged between the flattening mechanism (5) and the composite forming mechanism (3), and the corona machine is used for carrying out discharge treatment on the surface of the base material.

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